Hardware monitoring device

ABSTRACT

A hardware monitoring device suitable for use to monitor performance of hardware installed in a computer host system is disclosed. For example, the operating temperature and transmission speed of a hard disk or the temperature of a central processing unit can all be monitored by such device. The monitored information can also be displayed on a panel as a reference for adjustment of a heat dissipation fan. By the connection via a firmware, the adjustment of the heat dissipation fan and the monitored information of the hardware can be directly accessed from the operation system of the computer.

BACKGROUND OF THE INVENTION

The present invention relates in general to a device for monitoringoperation efficiency and temperature increase of hardware, and moreparticularly, to a device having the heat dissipation function andoperative to monitor and display hardware operation efficiency andtemperature variation. The monitoring device of a heat dissipationdevice can be driven via control of a panel or operation system.

In the information era, information equipment such as computer hardwareis highly demanded in the office. For the routine application,requirement of high efficient operation has consequently advances thefunctionality and quality of hardware components, such as high-frequencyoperation of central processing unit, display card, operation of harddisk. However, the problem accompanied with the high efficient operationis the increased heat generated thereby. How to efficiently dissipatethe heat has thus become an important topic in the industry. Currently,heat dissipation devices have been attached to the components whichgenerate great amount of heat. For example, a heat dissipation deviceand a fan are typically mounted on a central processing unit for quicklydissipate heat generated based on heat conviction and conduction, so asto reduce the operation temperature. Other proposals include the“computer peripheral for temperature control and wind speed adjustment”disclosed in Taiwanese Patent No. 553425 and the “external device forfan control and monitoring computer temperature” disclosed in TaiwanesePatent No. 573760. In these proposals, a temperature sensing circuit ora temperature information retrieving unit is used to derive thetemperature variation of hardware, so as to achieve heat dissipation byusing control circuit or processing unit to control the fan. Inaddition, a display unit is also available for displaying the operationstatus. However, in the above proposals are all directed to thetemperature sensing and fan driving issues and mechanical or electronicoperations. The monitoring process of the hardware temperature does notprovide heat dissipation itself.

BRIEF SUMMARY OF THE INVENTION

It is therefore a substantial need for implanting the heat dissipationfunction into the monitoring device, such that at the time the hardwareis monitored, the heat dissipation can be performed in a real time.

A monitoring device that has the heat dissipation function is thusprovided. The monitoring device is preferably operated and controlledvia a control panel or an operation system of a computer host.

The monitoring device as provided can be used in a computer system tomonitor the performance of hardware installed in the computer system,for example, the operation temperature, transmission speed of a harddisk or the temperature of a central processing unit (CPU). Through theconnection established by a firmware, the monitoring device can beoperated to perform adjustment and access monitor information from anoperating system of the computer.

Therefore, the user can select between the control panel or theoperation system of the computer host to monitor the temperaturevariation of the hardware monitored by the monitoring device. The usercan also perform adjustment of the heat dissipation in response to thetemperature variation in the operating system directly. Further, as themonitoring device has the heat dissipation function, the hardware isprotected while it is monitored. The monitoring device can monitor morethan one hardware at a time. The operating system also allows thetemperature variations for various hardwares displayed at the same time.

BRIEF DESCRIPTION OF THE DRAWINGS

The above objects and advantages of the present invention will be becomemore apparent by describing in detail exemplary embodiments thereof withreference to the attached drawings in which:

FIG. 1 is a perspective view of a monitoring device provided by thepresent invention;

FIG. 2 shows the assembly of the device;

FIG. 3 shows a block diagram of the device;

FIG. 4 shows the application of the device;

FIG. 5 shows the operation status displayed by the operating system;

FIG. 6 shows the operation status displayed by the operating system;

FIG. 7 shows the operation status displayed by the operating system;

FIG. 8 shows a perspective view of the device;

FIG. 9 shows the assembly of the device in another embodiment;

FIG. 10 shows the application of the device;

FIG. 11 shows the heat dissipation function of the device; and

FIG. 12 shows the device applied to a computer host.

DETAILED DESCRIPTION OF THE INVENTION

Referring to FIG. 1, a perspective view of a hardware monitoring device10 is illustrated. The monitoring device includes a control panel 111, abox 12, a plurality of control keys or buttons 111 and a display 112.The box 12 has a receiving space (not shown) and a plurality of fins 12formed on a surface thereof, such that the monitoring device 12 itselfprovides heat dissipation function.

Referring to FIG. 2, a carrier 13 is provided for carrying the box 12therein. The carrier has two protruding sides serving as a pair ofblocking walls 131. Through holes 1311 are formed in the blocking walls131, such that the box 12 can be secured on the carrier 13 by screwmembers. A vibration absorption pad or washer 135 may be applied on eachof the holes 1311. The bottom surface of the carrier 13 also includes aplurality of fins 133. A heat paste 134 is applied on the top surface ofthe carrier 13, such that a close contact between the box 12 and thecarrier 13 can be obtained. Holes 1312 are also formed through thehorizontal edges protruding laterally from the blocking walls 131 toprovide additional fastening mechanism.

Referring to FIG. 3, the monitoring device includes a control panel 11,a space formed by the box 12 and the carrier 13, a heat dissipation fan14, a control module 15 and a monitoring module 16.

The control module 15 includes a digital electronic module, which hasmultiple functional options such as switch and adjustment betweenUP/DOWN, ON/OFF or ° C./° F. The control module 15 is connected to thecontrol panel 11. By the operation of the control panel 11, the controlmodule 15 is driven to make the required option such as switchingbetween UP/DOW or ° C./° F. The control module 15 is also connected tothe heat dissipation fan 14. By the voltage adjustment, the rotationspeed of the heat dissipation fan 14 is controlled.

The monitoring module 16 is connected between a hardware 20 (such as ahard disk) to be monitored thereby and the control module 15. If thehardware 20 is connected to a host system, the monitoring module 16 mayalso be connected between the host system and the control module 15,such that monitoring module 16 can monitor the hardware 20 via theconnection of the host system. The monitoring module 16 includes atleast a temperature monitoring unit. An additional hard disk monitoringunit can also be included. The temperature monitoring unit can beconnected or attached to the monitored hard ware to monitor temperaturevariation thereof. Alternatively, the temperature monitoring unit can beconnected to the motherboard of the host system to monitor the hard warethrough the motherboard. The monitoring module 16 is also connected tothe control panel 11, such that the monitored information can bedisplayed by a screen 112 controlled by the control panel 11. Themonitoring module 16 is also connected to the heat dissipation fan 14 tomonitor performance such as rotation speed thereof. A warning unit mayalso be installed in the monitoring module 16 to alert the user when thetemperature reaches an upper limit. The warning unit includes a buzzeror a signal light, for example.

Referring to FIG. 4, the monitoring device 10 is applied to a computer.A firmware (a monitoring program) 17 is written in the control module15. The connection between the hardware monitoring device 10 and thecomputer operating system 30 is established. The monitored informationcan then be simulated into a controller and an indicator allowing theuser to observe the hardware performance and temperature while operatingthe operating system. The user can also use the controller to adjustoperation parameters such as the rotation speed of the fan. Referring toFIG. 5, a simulated efficiency indicator 40 can be used to digitize themonitored information efficiency of the hardware such as the hard disk.A display panel can thus be simulated to include the following displaywindows:

(1) Meter-like display region 41 for operation efficiency;

(2) Selection of monitored hardware 42;

(3) Display region 43 for digitized operation efficiency; and

(4) Elongate display region 44.

A speed-transmission simulated unit of the monitored simulation program17 converts the information obtained by the monitoring unit into digitalinformation and displays the digital information in the computeroperating system, such that the user can read the converted informationof the monitored hardware from the screen of the operation systemdirectly.

FIG. 6 shows a temperature variation simulation indicating meter 50. Theoperation information of the heat dissipation fan was monitored anddigitized and displayed on a display panel, which comprises thefollowing windows:

(1) Heat dissipation fan selection 51;

(2) Rotation-speed meter for the heat dissipation fan 52;

(3) Temperature display meter 53;

(4) Adjustment knob or button 54; and

(5) Display region for digital information.

A temperature simulation unit of the monitor simulation program 17converts the monitored temperature variation into digital informationand displays it in the computer operating system, such that the user canread the operation information of the heat dissipation fan from theoperation system directly.

FIG. 7 shows a simulation control board 60 for the fan operation status.The simulation control board 60 is used to set up condition, so as tomonitor the idling status of the heat dissipation fan. The displayincludes the follow display windows:

(1) Information region 61 to display the information of the hardware tobe monitored; and

(2) Setup region 62, having at least the setup option for timing.

A controller simulation unit of the monitor simulation program 17 isused to simulate a plurality of functions of the control module intodigitized function keys displayed in the operating system.

Referring to FIG. 8, another embodiment of a hardware monitor device isillustrated. As shown, the hard disk 20 is disposed on a carrier 13before being installed in the computer host system. Referring to FIG. 9,fastening members such as screws 136 are used to secure the hard disk 20to the carrier 13. The assembly of the hard disk 20 and the carrier 13is installed in a container 12 as shown in FIG. 1. In this embodiment,the container 12 has an open bottom allowing the assembly of the harddisk 20 and the carrier 13 disposed therein from the bottom to the topthereof. A cross sectional view of the assembly can be referred to FIG.11. A layer of heat dissipation paste 137 may be applied between thecontainer 12 and the assembly to improve heat dissipation efficiency.

Referring to FIG. 10, the hard disk assembly a shown in FIG. 9 is thenslide into a slot 71 of a computer host 70 to operate when the electricconnection is established.

In the embodiment as shown in FIG. 11, the carrier 131 and the container12 extends laterally over the hard disk 20 and the carrier 13, such thatan open portion is formed in front of the hard disk 20. The open bottomof the container 20 thus leaves an opening at the bottom of the harddisk assembly. As shown, a control panel 11 is attached to a front sideof the hard disk assembly. A plurality of venting holes 113 is formed ata periphery of the control panel 11 allowing ambient air to flow intothe hard disk assembly. A plurality of fins 121 is formed on an externalsurface of the container 12, and a plurality of fins 133 is formed on alower side of the carrier 13 to increase heat dissipation area. A heatdissipation fan 14 is installed at the opening of the hard disk assemblyunder the open space as described above. Therefore, as shown by thearrows in FIG. 11, air in the space can be circulated towards thechannels between the fins 131, while ambient air can be circulated intothe space through the venting holes 113 when the fan 14 is operating.The flow direction of the air is denoted by W in FIG. 11. The heatflowing through the channels between the fins 133 can thus be dissipatedefficiently thereby.

Referring to FIG. 12, another embodiment of the hardware monitor deviceis illustrated. In this embodiment, a plurality set of electric wires isused to establish connections between multiple hardwares 21, 22, 23 andfans 211, 212 and 213 simultaneously.

The hardware monitor device as provided thus has at least the followingadvantages:

(1) The user can make selection of control from the control panel of thecontainer or the screen of the computer operating system directly;

(2) The user can perform hardware operation and temperature monitor onmultiple hardwares simultaneously;

(3) A real time adjustment of the rotation speed of the heat dissipationfan can be performed; and

(4) The monitor device is a heat dissipation device itself, such thatthe operation thereof provides heat dissipation effect.

While the present invention has been particularly shown and describedwith reference to preferred embodiments thereof, it will be understoodby those of ordinary skill in the art the various changes in form anddetails may be made therein without departing from the spirit and scopeof the present invention as defined by the appended claims.

1. A hardware monitor device, used to monitor and control performanceand temperature of a hardware and provide heat dissipation at the sametime, comprising: a control module, having a plurality of functionselections; a monitor module connected the hardware to the controlmodule, the monitor module being operative to at least monitortemperature of the hardware a control panel, electrically connected tothe monitor module to operate the function selections of the controlmodule, the control panel having at least a display region fordisplaying information monitored by the monitor module and an adjustmentcondition of the control module; and a container and a carrier forinstalling the hardware therein, so as to form a hardware assembly inwhich a space is formed in front of the hardware, and a heat dissipationfan is installed under the space. wherein the monitor module includes aunit for monitoring transmission speed of a hard disk.
 2. The device ofclaim 1, wherein the monitor module includes a temperature variationmonitor unit.
 3. (cancelled)
 4. The device of claim 1, wherein themonitor module includes a warning unit for an upper limit oftemperature.
 5. The device of claim 4, wherein the warning unit includesa buzzer to generate audio warning signal.
 6. The device of claim 1,wherein the monitor module includes a plurality of electric wiresconnected to a plurality of hardwares to perform monitor the hardwaressimultaneously.
 7. The device of claim 1, wherein control panel providesan access for adjusting voltage applied to the heat dissipation fan, soas to control rotation speed thereof.
 8. The device of claim 1, whereinthe container has an external surface and a plurality of fins formed onthe external surface.
 9. The device of claim 1, further comprising afirmware for connecting the monitor unit to a computer operating system,the firmware comprising: a temperature simulation unit to digitizemonitored temperature information of the monitor unit and display thedigitized monitored information in the operating system; atransmission-speed unit to digitize monitored transmission-speedinformation of the monitor unit and display the digitized monitoredtransmission-speed information in the operating system; and a controllersimulation unit to convert the function selections of the control moduleinto a plurality of digital function keys, and display the digitalfunction keys in the operating system.
 10. A hardware monitor device,used to monitor and control performance and temperature of a hardwareand provide heat dissipation at the same time, comprising: a controlmodule, having a plurality of function selections; a monitor moduleconnected the hardware to the control module, the monitor module beingoperative to at least monitor temperature of the hardware a controlpanel, electrically connected to the monitor module to operate thefunction selections of the control module, the control panel having atleast a display region for displaying information monitored by themonitor module and an adjustment condition of the control module; acontainer and a carrier for installing the hardware therein, so as toform a hardware assembly in which a space is formed in front of thehardware, and a heat dissipation fan is installed under the space; and afirmware for connecting the monitor unit to a computer operating system,the firmware comprising: a temperature simulation unit to digitizemonitored temperature information of the monitor unit and display thedigitized monitored information in the operating system; atransmission-speed unit to digitize monitored transmission-speedinformation of the monitor unit and display the digitized monitoredtransmission-speed information in the operating system; and a controllersimulation unit to convert the function selections of the control moduleinto a plurality of digital function keys, and display the digitalfunction keys in the operating system.
 11. The device of claim 10,wherein the monitor module includes a temperature variation monitorunit.
 12. The device of claim 10, wherein the monitor module includes aunit for monitoring transmission speed of a hard disk.
 13. The device ofclaim 12, wherein the monitor module includes a warning unit for anupper limit of temperature.
 14. The device of claim 13, wherein thewarning unit includes a buzzer to generate audio warning signal.
 15. Thedevice of claim 10, wherein the monitor module includes a plurality ofelectric wires connected to a plurality of hardwares to perform monitorthe hardwares simultaneously.
 16. The device of claim 10, whereincontrol panel provides an access for adjusting voltage applied to theheat dissipation fan, so as to control rotation speed thereof.
 17. Thedevice of claim 10, wherein the container has an external surface and aplurality of fins formed on the external surface.